Lubrication



July 5, 1938. E. 2,122,427

LUBRICATION Filed Feb. 24, 1931 7 Sheets-Sheet 1 gg 27 [Y 19 2] .35 34/ .70 Z? I 50 I 9 I .l 2 52 1a I mm 56 29 2 5 25 j? I: J5

INVENTOR Z'dgvard/Zlfoaker BY lw ww ATTORNEYS July 5, 1938. E, KQCHER 2,122,427

LUBRICATION Filed Feb. 24,- 1931 7 Sheets-Sheet 2 Q Q J52 I 15 1: mum:

INVENTOR ATTORNEYS July 5, 1938. E. H; KOCHER 2,122,427

LUBRICATION Filed Feb. 24, 1951 7 Sheets-Sheet 3 4/34 J82 J3? 131 1a y 1938. E. H. KOCHE 2,122,427

LUBRICATION Filed Feb. 24, 1931 7 Sheets-Sheet 4 I P q INVENTOR EdwardzZ/[oofiar I BY QQZAAUWL WMLA'UWMQ ATTORNEYS july 5, 1938. H, KOCHER 2,122,427

LUBRICATION Filed Feb. 24, 1931 7 Sheets-Sheet s INV ENTO R Edward/Y ffocker BY QmfiW, \Q/WJQQQJZV ATTORN EY5 Patented July 5, 1938 2,122,427

i UNITED STATES PATENT OFFICE LUBRICATION Edward H. Kocher, Boonton, N. J., assignor to Auto Research Corporation, a corporation of Delaware Application February 24, 1931, Serial No. 517,687

8 Claims. (Cl. 184-45) The present invention relates to lubrication and matically during operation of the vehicle as by particularly to the lubrication of the chassis a motor of the inertia or fluid pressure type. bearings of an automotive or other vehicle. The reservoir is associated with or is an integral An object of the invention is to provide a lubripart of the engine housing and in its preferred eating installation of the character described form serves to admit lubricant to the crank case which will function to lubricate a plurality of of the engine structure and constitutes preferbearings with a minimum of attention, and which ably the sole filling means for the engine oil pan. although it utilizes an individual lubricant sup- The reservoir may be so constructed that it will Ply. Will not require individual attention even for trap an amount of lubricant which will sufiice 10 filling, but will receive its supply incidental to for the chassis lubricating requirements between 10 the supply of lubricant to some other part of crank case fillings and will permit the excess luthe mechanism or vehicle. bricant over such amount to pass on to the crank Another object is to provide an arrangement case. The reservoir may be formed in some holby which the crank case of an automotive engine low part of the engine structure, such as the supwill receive its lubricant supply by a filling operaport arms, or a separate metalreservoir may be 15 tion, which operation additionally serves to charge attached to the engine adjacent the crank case, a reservoir or reservoirs associated with lubrior if desired, at higher level, as above the valve eating systems, particularly of the waste or nonmechanism. circulating type, as are utilized to supply the Communication from the chassis reservoir to chassis bearings, and to accomplish this result the engine oil pan may occur through an over- 20 without diminishing the crank case supply or flow tube extending from adjacent the top of the overcharging said reservoir or reservoirs. reservoir through the bottom thereof and into Another object is to combine the lubricant supthe crank case. The top of the tube is either ply arrangements for the engine and chassis lubrioifset from the filler opening of the reservoir or cating systems of an automotive vehicle in such positioned therebelow and provided with a de- $33 a manner that a replenishing of the lubricant fiector for causing part of the lubricant poured supply for the engine lubricating system will ininto said filler opening first to fill the chassis herently and automatically result in a replenishreservoir. The filler tube so provided with a dement of the supply for the chassis system, withfiector may extend into the filler opening or proout at the same time interfering with the subseject through the top of reservoir to serve itself 30 quent independent operation of said systems. as the filler opening therefor, suitable openings Another object is to provide a combined pumpbeing provided in the sides of the tube to permit ing and reservoir unit for a central chassis lubrioverflow from the reservoir. When the reservoir eating system may be readily supported on or is integral with engine structure or bolted there- 35 about the engine of the vehicle and which is to, a port in the upper part of the reservoir may 35 charged with lubricant as a necessary incident serve for overflow into the crank case.

to supplying the crank case of the engine with In the accompanying drawings in which there lubricant. are shown one or more of the various possible Another object is to provide a self-contained embodiments of the features of this invention: 40 unit to serve as a source of lubricant and of pres- Figs. 1, 2 and 3 illustrate one embodiment of 40 sure for a distribution system leading to the bearthe invention utilizing an automatically actuated ings of an automobile chassis, and which admits fluid pressure device for pumping lubricant into of installation on or about the engine structure the distributing system, Fig. 1 being a side secin such relation to the crank case as to facilitate tional view, Fig. 2 being a top view and Fig. 3 the charging of both said source and the crank illustrating the attachment of the device to the 45 case by a single filling operation. crank case of an automobile.

Other objects are in part obvious and in part Fig. 4 is a longitudinal sectional view illustratpointed out hereinafter. ing one type of a flow metering device which A feature of the present invention consists may be utilized to proportion the lubricant among in combining with a chassis lubricating installathe chassis bearings of an automotive vehicle; 50

tion, which may desirably be of the character Figs. 5 and 6, Figs. 7 and 8 and Figs. 9 and 10 disclosed in Bijur Patents Nos. 1,632,771, 1,732,212 illustrate, respectively, three modifications, Figs. and 1,746,139, a unitary reservoir and pumping 5, 7 and 9 being side sectional views of said modiarrangement, which arrangement may be manfications and Figs. 6, 8 and 10 being, respectively,

5 ually controlled but is preferably actuated autoother views of portions of the filler tubes thereof being a top view in fragmentary section on line I6l6 of Fig. 15; and

Figs. 17 to 19 represent still another embodiment, Fig. 17 being a side sectional View, Fig. 18 being a side view with a portion of the enclosing structure removed and. Fig. 19 being a fragmentary side sectional view upon the line l9l9 of Fig. 18.

In Figs. 1, 2 and 3, the reservoir R is composed of a base cup-shaped member and a cap cupshaped member I I, the former supporting a pumping mechanism P and a crank case filler pipe C and the latter supporting a fluid pressure motor M. The upper shell H is provided with an inlet neck l2 which is adapted to be capped, as indicated at 43, between crank case filling operations and with an opening I4 covered by the dome-shaped member l5 which is attached to the top of the shell H by suitable screws (not shown), the gasket It being clamped between said dome and the top of said cover to form a lubricant-tight connection.

The reservoir is adapted to be mounted upon the crank case (see Fig. 3) of the motor vehicle by means of a crank case filler H extending nearly the full height of the reservoir R and. protruding below the bottom thereof for insertion into the crank case filler opening 12 to which it may be clamped by means of the bolt or screw 13 with extension or shank 413 extending entirely thereacross locked against backing out by the nut 14. Tube H may be preassembled as a part of the reservoir by soldering or welding it to the neck 15 on the bottom of the shell Ill and to the strap 15, the ends 11 of which lie against and are spot welded to the inner face of the reservoir shell I0. I

The motor unit M, illustratively shown as the fluid pressure type, consists of a capsule 9, formed of upper and lower sheet metal members I! and I 8, the edges of which are folded together, as indicated at I9, to clamp the edge of a diaphragm 2! between the gaskets 22. The lower portion of the lower member I8 is formed with a depending cylindrical portion 23 provided with the tits 24 adapted to cooperate with corresponding open.- ings 25 in the side of the dome l5 to hold the capsule in position. The top of the capsule is provided with a connection 26 riveted thereto at 27 and having a tapped socket 28 enabling attachment of a suitable conduit leading from a source of varying fluid pressure, such as the intake manifold or the vacuum tank.v The diaphragm is stiffened at its central area by clamping the same between the upwardly and downwardly facing cup-shaped members: 32 and 33 by riveting over the upperreduced portion of the hollowed end 34 of the connecting rod 3|. The cup 32 also serves as a stop for upward move ment of the diaphragm and is provided with a notch 35 enabling ready passage of gas'or fluid from the connection 26 into the chamber above the diaphragm even when said cap is pressed against the top of the capsule. The lower cup 33 is adapted to contact with the top of the dome member l5 and serves as a lower stop. The upper part of the dome is provided with openings 36 which vent the chamber below the diaphragm into the reservoir R. The connecting rod 3| is encircled by the spring 31 reacting at its upper end against the dome l5 and at its lower-end against a washer 38, held in position upon the connecting rod by the ring 39. The lower end of the connecting rod 3| is hollowed and provided with a conical depression 40 which cooperates with the conical depression in the ring 4| to form a-socket for the ball 42 at the top of the plunger 43. The pump body 44 is provided with a central bore 45 at its upper end to receive the plunger 43, said bore communicating by the smaller bore with another aligned bore 46 formed with a valve seat to coact with the spring-seated outlet valve 41, the hollow pressed-in plug 48 serving as a spring retainer. The end of the bore 46 is tapped at 49 to receive a suitable outlet connection to the distribution system 61. The sides of the body 44 are provided with radial inlet bores 5|. Encircling the body 44 at the inlet bores 5! is a filter assembly consisting of the ring 53 with its cooperating inlet bores 52, which ring carries the annular cup-shaped metallic mesh strainer 83 and the upwardly dished cover. plate 54 therefor, the inner edges: of said strainer and plate being attached to said ring and the outer edges being folded together at 55. The filter assembly is clamped against the shoulder (ii of the body 44 by the riveting 56. A flanged ring 58 is attached to the pump body 44 below the bottom 51 and affords a base for a soldered connection 59 between the tank bottom and said pump body.

The motor M may be connected to a suitable source of varying fluid pressure, for example the vacuum fuel-feed tank which is alternately exposed to the suction of the intake manifold and. to atmospheric pressure. The diaphragm is elevated by suction stressing the spring 31, which is released when suction ceases, whereupon the stressed spring 31 urges the diaphragm and its connected plunger downwardly. The upward movement of the diaphragm will result in an elevation of the plunger 43 above its inlet port 5| permitting the lower part of the bore 45 to fill with lubricant, and downward movement of the diaphragm will result in the plunger closing the port 5| and then discharging the lubricant in the cylinder 45 past the spring-seated check valve 41 into the distribution system.

Associated with the outlets of the distribution system may be flow metering devices of the type illustrated in Fig. 4. In Fig. 4 the body is threaded at its outlet end 86 for attachment to a socket 81 in a mounting or bearing structure 88, and is provided with a central bore 89 almost completely filled with a pin 90 which forms a narrow annular restriction passage therewith, the length and diametral clearance of which passage determines the rating of the metering device. outlet socket 9| is formed with a valve seat 92 and is illustratively shown as containing a loose flap valve 93, which may also be spring-seated if desired, while the inlet socket 94 contains a felt strainer 95 backed by a screen mesh 96. inlet end of the body 85 is threaded at 91 to receive a thimble 98 which cooperates with the compression coupling sleeve 99 and a bushing I00 to clamp the pipe end llll of the conduit system in liquid-tight connection with the drip plug shown.

In operation the reservoir R is filled through the neck 12 with removal of the cap l3 and since The The.

the tube H is out ofalignmen t with said filler opening I2, the reservoir will fill to the level of the upper end of the tube 1I whereupon the excess lubricant will overflow to the crank case 10. The

arrangement is designed to accommodate a full charge for the crank case, even though the volume thereof be many times the volume of the reservoir R, the area of the filler-opening I2 and the tube 1| being so regulated that the filler tube will conduct excess lubricant away from the reservoir R as rapidly as it can be added thereto by means of tions in which similarly functioning parts are designated by the same numeral with the sufiix I, 2 or 3, respectively.

In the embodiment of Fig. the sloping crank case filler tube 1I' extends entirely through the reservoir R and is soldered and brazed or soldered to the necks formed in the top and bottom shells II and IU' of said reservoir. The enclosed portion of the tube 1I adjacent the top of the reservoir R is cut away to provide openings IIIl andextending completely across this part of the tube is the bafile plate I II provided with the lugs I I2 for attachment to the sides of the tube 1I' above and below the openings III), as by spot welding. In this embodiment the top of tube 1I itself receives the cap I3 and serves as the filler opening for the chassis reservoir. The lubricant poured into the tube 1I' will for the most part be deflected by means of the plate I I I into the reservoir R until it fills the same to the level of the lower edges of the openings III) whereupon the excess needed to supply the crank case requirements will flow down into the crank case.

In the embodiment of Fig. '1 the sloping filler crank case tube 'II projects upwardly to above the top of the reservoir R. and is fixed within a sleeve H3, the lower portion of which is flared outwardly at H4 and flanged at II5 to close an opening I I6 in the top of the reservoir R the top of the sleeve II3 serving to receive the cap I3 The sides of the tube adjacent the top of the reservoir R are cut away to provide the openings H1 and a tab is left and turned inward to form a bafile H8, which deflects a part of the lubricant poured into the sleeve I I3 into the reservoir R the remaining lubricant or the excess lubricant above the level of the lower edge of the openings II1 overflowing into the filler tube H and into the crank case.

In Fig. 9 the sloping crank case filler tube H is supported by a bracket H9 spot welded or soldered at I23 to reservoir R To the top of the tube, by means of the tab I2I is spot welded or soldered the baflie I22 which functions similarly to the baflie I I8 of Fig. '1.

It is understood that the embodiments of Figs. 5, '1 and!) may receive motor and pump mechanisms oi the type described in connection with Fig. 1 or as will be subsequently. described in connection' with other embodiments each delivering through an outlet (not shown) in the tank to the plate I32 provided with a corresponding opening I33, said cover plate being bolted at I34 to cover an opening I35 in the side of the crank case I36. The lower shell I0 is also supported from the crank case I36 by the S-shaped bracket I31 bolted at I38 thereto. The crank case lubricant poured in through the filler neck I2 upon removal of the cap I3 will fill the reservoir R to the level of the opening I30, whereupon the crank case supply will overflow into the crank case I36.

In this embodiment an inertia-operated pump is illustratively shown associated with the reservoir instead of the fluid pressure-operated pump of Fig. 1. This inertia-operated pump may be of the character described in the prior application Serial No. 398,839, filed October 11, 1929 by Joseph Bijur and will now be briefly described.

The pump and motor casing includes an elongated cylinder I50 extending completely through the reservoir, with its upper end projecting a considerable distance thereabovc and its lower end extending some distance therebelow into the sleeve I5I, which is soldered to a pendant flange I49. Cylinder I50 is soldered at I52 into an upper opening I53 in the reservoir and is force fitted or soldered into the inwardly turned upper end I54 of the sleeve I5I. Except for this inwardly turned top portion, the sleeve I5I is slightly larger in internal diameter than the external diameter of the cylinder I53 thereby leaving an annular space I55 between the cylinder and sleeve into which oil may flow from the reservoir through the openings I56 adjacent the top edge of the sleeve NH. The cylinder I50 is closed at its top by a flanged cap I51 and at its bottom by a block I58 force fitted thereinto, this block including a flange I59 to abut the lower end of the cylinder. The pump body I68 includes a tapered intermediate portion I 6i force fitted into a tapered receiving bore in the block Upper and lower partition disks I33 and IE4 of identical construction extend transversely of the cylinder I53 and with the cap I51 and the block I58 subdivide the cylinder into three chambers. The uppermost chamber I65 houses the motor, the lowermost chamber I56 may be termed the pump chamber and the central chamber I31 between the partition disks serves as a reservoir. The disks I53 and I65 have their edges confined between partial shears I68 in the cylinder walls and inwardly struck projections I49 in such walls. At their centers they are apertured and flanged at I69 to provide substantial bearings for the sliding movement of a connecting rod I10 which transmits power from the motor to the pump.

In the motor mechanism, the upper end of connecting rod I10 extends through a bore I1I in a relatively massive inertia weight I12 and is fixed thereto by the threaded bushing I 14 and the compression sleeve I11 cooperating with the tapped socket, the weight being sustained in free floating position by coiled supporting spring I13 reacting against the disk IB3 and deriving energy from the vibration incidental to normal running of the car.

Disks I63 and I64 are formed with central circular upstruck portions or offsets I18 and I19 having openings I83 and I8I therein, the offset I18 of the upper disk serving to center the spring 413. Weight I12 throughout its upper portion is cylindrical and of less diameter than the cylinder I58 and near its lower end is undercut to provide a downwardly facing shoulder or seat I82 resting on the spring I13. Below this shoulder,

the weight is of inverted frusto-conical shape, lying within spring I13, its flat lower face adapted to be stopped in its downward movement by a short coiled bufier spring I83 affording a lower stop. A disk or strap I 84 overlying the upper face of the disk I63 and conforming to its contour is formed with one or more outstruck fingers I85 to grip the lowermost convolution of bufier spring I83 and hold the latter against displacement.

Referring now to the pump (see particularly Figs. 11 and 14), body I68 is formed with a longitudinal bore I86 extending therethrough and with an unpacked self-porting plunger I81 sliding therein. The lower portion of this bore opens out into a valve chamber I88 in which the spring seated outletvalve I89 is accommodated. Therebelow, bore I86 is further enlarged to accommodate a sealing plug I98, screwed home to plug the lower end of the bore. A transverse bore I93 intersecting bore I86 provides a pair of inlet ports for the pump, that portion of the bore I86 between the bore I93 and valve I99 defining the pump cylinder proper and that portion of the bore I89 above the bore I93 serving merely as a guide for the plunger I81.

As best seen in Fig. 1.4 the chamber I88 is provided with diametrically opposite ports 282, communicating with an annular groove 283 in the exterior of body I68, which in. turn communicates with radial passageways 284 in the block I58, opening into sockets 485 to which the outlet pipe lines are connected.

The filter consists of a series of felt filter rings 288 slipped over a cylinder of wire mesh, the lower end of which is soldered into a depression 281 in the bottom of the flange cap 285. The top of the mesh cylinder 286 is spun over at 289 upon a washer 2I8 lying upon the inner edge of the uppermost felt ring 288. The filter assembly is attached to the bottom of the tube I5I by screwing the flange cap 285 thereupon, the outer edge of the filter being forced against the lower edge of the block I58 during said operation.

In operation the oil in the reservoir flows downwardly through openings I 56 into passageway I55 and into the bottom of sleeve I5I. It seeps through the filter and rises through recess 2!! and passage 2I3 in block I58 into the chamber I61, immersing the pump and rising through opening IBI into chamber I66 where it lubricates the connecting rod I18 until it reaches the level of lubricant in reservoir. The valve I89 prevents flow of oil out of the pump cylinder which is normally kept full by gravity flow through ports I93. When the motor car is started, the normal vibration incidental to its running will impart a jiggling movement or reciprocation to the floating weight I12 and the connecting rod I18 to which it is fixed, this motion being transmitted through the connecting rod I18 to the plunger I81 which is alternately retracted to permit oil to flow through ports I93 into the cylinder and rammed home to force all or part of the pump charge past the valve I89, resulting in a substantially continuous feed into the distributing system.

In the embodiment of the Figs. and 16, the reservoir R is formed in the support. arm 258 or other structure unitary or rigid with the crank case 25I, said arm being open at the top and provided with a cover 252 having a filling opening 253 closed by the sliding cap 254 pivotally connected by the strap 255 and the screw 256 to the cover 252, said cap 254 being provided with a handle 251 enabling manipulation thereof. The

v the wick 3I3.

reservoir R is also provided with the overflow opening 258 permitting excess lubricant for crank case replenishment to flow into the crank case, said opening being protected by the outwardly flaring apron 259 bolted at 268 to the supporting structure to prevent dirty lubricant dripping down from the valve rocker arm bearings 26I into said reservoir R mechanism 262 is of substantially the same construction as in the case of the embodiment of Fig. 11, except that the bottom of the unit is not enclosed by a sleeve but directly communicates with the reservoir R by means of the inlet openings 263, a single outlet 264 from the pump being provided, which outlet communicates with a pipe 265 extending along the side of the structure into the opening 266 in the protuberance 218 of the supporting ledge 261 at the top of the structure 262, said ledge being flanged at 268 and bolted to the cover 252 at 269. The protuberance 218 is also provided with the outwardly extending horizontal bores 21I communicating with the vertical bore 266. The outer ends of the bores 21I are enlarged and tapped at 212 for connection to the pipe ends 213 leading to the distribution system.

In the embodiments of the Figs. 17 to 19, the reservoir R is enclosed within a cover 298 resting upon and associated in lubricant-tight relation with the engine structure 29I by means of the gasket 292, said cover being provided with a filler neck 293 closed by a removable cap 294. The reservoir R is composed of an upper shell 296 and a lower shell 295 telescoped together and soldered or welded at 291, said shells being The motor and pump somewhat flattened and widened as compared to the shells of the embodiments of Figs. 1, 5, 7 and 11, the bottom shell resting upon and being supported by the brackets 298 spot welded or soldered at 299 thereto and bolted at their other ends 388 to the engine structure. The upper shell 296 is provided with a filler neck 38I registering with the filler opening 293 on top of the cover 290. Fixed in neck 382 in the bottom shell 295 is a crank case filler tube 383, the lower portion 384 of which fits in a liquid-tight manner within an opening 385 in the hollow elbow casting 386 (see also Fig. 19). The downwardly projecting portion 381 of the casting 386 pours oil down into the engine sump. The casting 386 is also intermediately provided with a bored protuberance 388 into which is fitted the pipe 309, the upper portion of which communicates with the interior of the casting 386 by the opening 3I8. The pipe 389 extends the length of the top of the engine, see particularly Fig. 18,) and has a series of openings 3 where it passes through the valve rocker arms 3| 2 establishing communication between the pipe and the annular groove 325 within the rocker arm, which groove encloses The wick 3I3 is provided with extensions 3I4 and 3| 5 overhanging, respectively, the ball bearing 3I6 at the top of the valve push rod and the sleeve bearing 3I1 of the'valve itself. Attached to the reservoir R and projecting entirely therethrough is a pump and motor combination 3I8 substantially of the same construction as of the embodiment of Fig. 11, said pump supplying conduits 3I9 and 328 leading to the chassis distributing system. The top of the unit 3I8 projects above the cover 298 and is enclosed in the dome 32I.

In operation the necessary lubricant for replenishing the chassis reservoir R as well as the crank case is poured in to the filler opening 293,

after the cap 294 is removed. The lubricant -will "first fillthe reservoir R to thelevelof the tube 3ll3,-whereupon the excess for crank case requirements will flow through the tube 306 and down through the oasealong the side of the engine. A portion of. the lubricant passing through the tube 306 will flow into the tube 309 by means of the opening 3lll and will supply the wicks 3l3 by means of the openings 3H; The overhanging ends 3M and 3|5 of the wicks 3| I will assure lubrication of the bearings at the ends of the valve rocker arm.

It is obvious that many other forms of mechanisms for forcing lubricant in the chassis distributing lines might be utilized instead of the specific fluid pressure or inertia-operated embodiments illustratively shown. Also other means as float-operated outlet valves could be employed to assure that the lubricant for replenishing the crank case supply might flow thereto either before, during or after the replenishment of the chassis reservoir. Although, if desired, the chassis reservoir could be provided with suitable means to enable breathing of the crank case therethrough, it is usually desirable to provide a separate crank case breathing arrangement which may be readily placed adjacent the crank case filling arrangement of the present invention.

As many changes could be made in the above construction, and many apparently widely different embodiments of this invention could be devised without departing from the scope thereof, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

I claim:-

1. A lubricating installation for an automobile comprising a chassis lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, an engine oil reservoir, and a lateral passageway connecting the upper part of the chassis reservoir with the engine reservoir and permitting overflow of lubricant from the chassis reservoir to the engine oil reservoir, said chassis reservoir being attached to the side of said engine structure, said lateral passageway extending directly out of the chassis reservoir into the engine reservoir without being in heat exchange contact with the body of lubricant in the lower part of said chassis reservoir.

2. A lubricating installation for an automobile comprising a chassis lubricating system, an engine lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, a reservoir for supplying lubricant to the engine lubricating system, said reservoirs being positioned alongside of one another, and a passageway connecting the upper part of the chassis reservoir with the engine reservoir and permitting overflow of lubricant from chassis reservoir to the engine reservoir, said passageway being formed by a cooperating horizontally elongated opening in the upper side wall of the chassis reservoir and the engine structure and being protected by a depending cover to prevent the engine lubricant from dripping or splashing into the chassis reservoir, said passageway being continuously open so as to afford constant communication between said reservoirs.

3. An automobile lubricating installation comprising a chassis lubricating system, a chassis reservoir,an engine oil reservoir,said second reservoir to supply the engine lubricating system, the

chassis reservoir being located slightly above said engine-reservoir and a lateral passageway connecting the two reservoirs passing through the side wall of the chassis reservoir and through the Ltop of the engine reservoir, said lateral passagewayextending directly out of the chassis reservoir into the engine reservoir without being in heat exchange contact with the body of lubricant in the lower part of said chassis reservoir.

4. A lubricating installation for an automobile comprising a chassis lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, an engine oil reservoir, and a lateral passageway from the chassis reservoir to engine reservoir to convey to the latter lubricant in excess of chassis requirements, said conduit passing through an opening in the side of the chassis reservoir and the top of the engine reservoir, said chassis reservoir being afiixed to said engine reservoir, said lateral passageway extending directly out of the chassis reservoir into the engine reservoir without being in heat exchange contact with the body of lubricant in the lower part of said chassis reservoir.

5. A lubricating installation for an automobile comprising a chassis lubricating system, an engine oil reservoir, a chassis reservoir and a passageway connecting the upper part of the chassis reservoir with the engine reservoir and permitting overflow of lubricant from the chassis reservoir to the engine reservoir, said chassis reservoir being formed in an integral part of said engine structure, said integral part of the engine structure taking the form of a supporting leg which is open at its side to the crank case and also at its top, said open leg structure being provided with a liquid-tight cover carrying a filler opening and a pump and motor combination, the latter depending downwardly into the reservoir and having an outlet adjacent the top thereof above said cover.

6. A lubricating installation for an automobile comprising a chassis lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, a reservoir for supplying lubricant to the engine lubricating system, and a passageway connecting the upper part of the chassis reservoir with the engine reservoir and permitting overflow of lubricant from the chassis reservoir to the engine reservoir, said chassis reservoir being formed in an integral part of said engine structure, said integral part of the engine structure being open at its side to the crank case and also being open at its top, said top opening being provided with a liquid-tight cover carrying a pump and motor combination, the latter depending downwardly into the reservoir and having an outlet adjacent the top thereof above said cover.

'7. A lubricating installation for an automobile chassis and engine comprising a chassis lubricating system, an engine lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, a reservoir for supplying lubricant to the engine lubricating system, said reservoirs having a side wall in common and an opening from and through the upper side wall of the chassis reservoir to engine reservoir, said opening passing through said common wall to convey to the latter lubricant in excess of chassis requirements, said conduit being provided with bafile means to prevent return passage of dirty lubricant by splashing from the engine reservoir to the chassis reservoir, said opening from the chassis reservoir to the engine reservoir being continuously open so as to establish constant communication between said reservoirs and between the air bodies held in said reservoirs.

8. A lubricating installation for an automobile comprising a chassis lubricating system, an engine lubricating system, a reservoir for supplying lubricant to the chassis lubricating system, a reservoir for supplying lubricant to the engine lubricating system, said reservoirs having a side wall in common, and an opening from the chassis 10 reservoir to engine reservoir, said opening passing through said common wall to convey to the engine reservoir lubricant in excess of chassis requirements, said opening being in the top of the side of the chassis reservoir and in the top of the engine reservoir and being provided with deflecting means, to prevent return passage of dirty lubricant by splashing from the engine reservoir to the chassis reservoir, said opening from the chassis reservoir to the engine reservoir being continuously open so as to establish constant communication between said reservoirs and between the airbodies in contact with and above the lubricant bodies held in said reservoirs.

EDWARD H. KOCHER. 

